JP2004288576A - Discharge lamp illuminating device and lighting fixture - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a discharge lamp illuminating device and a lighting fixture in which the cumulative illuminating durations and cumulative numbers of illuminating times are automatically reset or continued only by the connection of the discharge lamp. <P>SOLUTION: A discharge lamp illuminating device 1 includes a reset means 15 for resetting the cumulative illuminating durations of the discharge lamp 3, when the cumulative illuminating durations of the discharge lamp 3 cumulatively time measured by a cumulative time measuring means 13 are more than the preset standard lifetime value and a lamp connection detecting means 4 detects the non-connections of a lamp illuminating means 2 and the discharge lamp 3. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a discharge lamp lighting device and a lighting apparatus for informing the lamp life based on the cumulative lighting time or the cumulative number of blinks of the discharge lamp.
[0002]
2. Description of the Related Art The cumulative lighting time of a discharge lamp is recorded, and when the cumulative lighting time reaches the lighting time corresponding to the end of the life of the discharge lamp, the lamp life is recognized by a notification means such as a display lamp, and a new discharge lamp is recognized. A prompt to replace it has been made. At this time, if replacement with a new discharge lamp is performed, it is necessary to reset the cumulative lighting time. It is desired that the reset be performed easily and reliably.
[0003]
For example, an interlock switch attached to a fluorescent lamp socket is provided, and the interlock switch is operated in a state where the fluorescent lamp is removed from the socket. There has been provided a fluorescent lamp lighting device that resets data of a cumulative lighting time of a memory when the fluorescent lamp lighting time is exceeded (see Patent Document 1).
[0004]
Further, a lighting device for lighting a fluorescent lamp and a fluorescent lamp lighting device for resetting the cumulative lighting time of the fluorescent lamp in a memory when an unconnected state of the fluorescent lamp exceeds a predetermined time are provided (see Patent Document 2). .). This fluorescent lamp lighting device can perform maintenance work such as cleaning of the removed fluorescent lamp within a predetermined time.
[0005]
Further, the cumulative lighting time is reset when the attachment / detachment of the fluorescent lamp is in the order of the first socket and the second socket, and conversely, the cumulative lighting time is reset when the attachment / detachment of the fluorescent lamp is in the order of the second socket and the first socket. A fluorescent lamp lighting device that does not perform reset is provided (see Patent Document 3). That is, when replacing the lamp, the fluorescent lamp is attached and detached in the order of the first socket and the second socket, and for maintenance work such as cleaning, the fluorescent lamp is attached and detached in the order of the second socket and the first socket. is there.
[0006]
[Patent Document 1] Japanese Patent Application Laid-Open No. 2000-12275 (Page 3-4, FIG. 1)
[0007]
[Patent Document 2] Japanese Patent Application Laid-Open No. H11-283783 (page 3, FIG. 1)
[0008]
[Patent Document 3] JP-A-2000-200692 (page 2-3, FIG. 2)
[0009]
Patent Document 1 has a drawback that, when resetting the cumulative lighting time, it is necessary to operate the interlock switch beyond a predetermined value, which is troublesome and troublesome.
[0010]
Further, Patent Document 2 has a disadvantage that maintenance work such as cleaning must be performed within a predetermined time after the fluorescent lamp is removed, and the fluorescent lamp cannot be replaced with a new fluorescent lamp unless the predetermined time is exceeded.
[0011]
Further, Patent Document 3 has a drawback that the cumulative lighting time is erroneously reset or the cumulative lighting time is not reset properly due to the wrong order of attaching and detaching the fluorescent lamps to the first and second sockets.
[0012]
An object of the present invention is to provide a discharge lamp lighting device and a lighting apparatus that automatically reset or continue the cumulative lighting time or the cumulative number of blinks only by connecting the discharge lamp.
[0013]
According to the present invention, there is provided a discharge lamp lighting device, comprising: a discharge lamp; lamp lighting means for lighting the discharge lamp; and a lamp for detecting a connection state between the lamp lighting means and the discharge lamp. Connection detecting means; accumulative timing means for accumulatively counting the lighting time of the discharge lamp; and lamp connection when the cumulative lighting time of the discharge lamp cumulatively counted by the accumulative time means is equal to or longer than a preset lighting life value. Reset means for resetting the cumulative lighting time of the discharge lamp in the cumulative timer when the detecting means detects disconnection of the lamp lighting means and the discharge lamp.
[0014]
The lighting time of the discharge lamp is not limited to all-light lighting or dimming lighting.
[0015]
According to the present invention, when replacement of the discharge lamp with a new discharge lamp is performed when the cumulative lighting time of the discharge lamp becomes equal to or longer than the preset lighting life value, the lamp connection means detects the lamp lighting means and the discharge lamp. When the disconnection is detected, the reset means automatically resets the cumulative lighting time of the discharge lamp. On the other hand, even if the lamp lighting means and the discharge lamp are disconnected when the cumulative lighting time is less than the lighting life value, the resetting means does not reset the cumulative lighting time. After the maintenance, the lamp lighting means and the discharge lamp are reconnected, so that the counting of the cumulative lighting time is continued.
[0016]
According to a second aspect of the present invention, there is provided a discharge lamp lighting device, comprising: a discharge lamp; lamp lighting means for lighting the discharge lamp; lamp connection detection means for detecting a connection state between the lamp lighting means and the discharge lamp; Accumulative counting means for accumulatively counting the number of times; and when the cumulative number of blinks of the discharge lamp counted by the accumulative counting means is greater than or equal to a preset blinking life value, the lamp connection detecting means includes a lamp lighting means and a discharge lamp. Reset means for resetting the cumulative number of blinks of the discharge lamp in the cumulative counting means when the disconnection is detected.
[0017]
According to the present invention, when the discharge lamp is replaced with a new discharge lamp when the cumulative number of blinks of the discharge lamp becomes equal to or longer than a preset blinking life value, the lamp connection detecting unit detects the lamp lighting unit and the discharge lamp. When the disconnection is detected, the reset means automatically resets the cumulative number of blinks of the discharge lamp. On the other hand, when the cumulative number of blinks is less than the blinking life value, the resetting means does not reset the cumulative number of blinks even if the lamp lighting means and the discharge lamp are disconnected, so that maintenance work such as cleaning is performed. After the maintenance, the lamp lighting means and the discharge lamp are reconnected, so that the counting of the cumulative number of blinks is continued.
[0018]
According to a third aspect of the present invention, in the discharge lamp lighting apparatus according to the first or second aspect, the reset unit is further configured to receive an external signal, and the external signal is input. And resetting the cumulative lighting time or the cumulative number of blinks of the discharge lamp.
[0019]
The external signal can be, for example, a switch on / off operation or a transmission signal from a transmitter.
[0020]
According to the present invention, when the cumulative lighting time or the cumulative number of blinks of the discharge lamp has not reached the lighting life value or the blinking life value, and the discharge lamp is replaced with a new discharge lamp, the reset means is used. When an external signal is input, the cumulative lighting time or the cumulative number of blinks is reset by reset means.
[0021]
According to a fourth aspect of the present invention, there is provided a lighting apparatus according to any one of the first to third aspects, and a lighting apparatus main body provided with the discharge lamp lighting apparatus;
It is characterized by having.
[0022]
According to the present invention, there is provided a lighting fixture in which the cumulative lighting time or the cumulative number of blinks is automatically reset or continued only by attaching / detaching the discharge lamp to / from the lamp socket.
[0023]
Embodiments of the present invention will be described below with reference to the drawings. First, a first embodiment of the present invention will be described.
[0024]
FIG. 1 is a block diagram of a discharge lamp lighting device according to a first embodiment of the present invention. The discharge lamp lighting device 1 includes a lamp lighting circuit 2 as a lamp lighting means, a fluorescent lamp 3 as a discharge lamp, a lamp connection detection circuit 4 as a lamp connection detection means, and a control circuit 5.
[0025]
The lamp lighting circuit 2 includes a rectifying / smoothing circuit 6, an active circuit 7, an inverter circuit 8, and an input voltage detecting circuit 9. The rectifying and smoothing circuit 6 rectifies and smoothes the AC voltage of the commercial AC power supply Vs, and inputs the DC voltage to the active circuit 7. The active circuit 7 is, for example, a step-up chopper circuit, and converts an input DC voltage into a predetermined output voltage and inputs the output voltage to the inverter circuit 8.
[0026]
The inverter circuit 8 is formed in a half-bridge form using the field effect transistors FET1 and FET2 of the switching element so as to convert the DC voltage output from the active circuit 7 into a high-frequency voltage and output it. That is, a series circuit of the field effect transistor FET1 and the field effect transistor FET2 is connected to the output side of the active circuit 7, and a series circuit of the inductor L1, the DC cut capacitor C1 and the starting capacitor C2 is provided between both ends of the field effect transistor FET2. One end of a series circuit of the filament winding L1a of the inductor L1 and the diode D1 is connected to the midpoint A of the DC cut capacitor C1 and the starting capacitor C2, and the filament winding of the inductor L1 is connected to the source of the field effect transistor FET2. One end of L1b is connected. Both ends of the series circuit of the filament winding L1a and the diode D1 are connected to output terminals 10a, 10a of the lamp lighting circuit 2, and both ends of the filament winding L1b are connected to output terminals 10b, 10b of the lamp lighting circuit 2. Have been. Note that the diode D1 is connected so as to be in the opposite direction to the midpoint A.
[0027]
The gates of the field effect transistor FET1 and the field effect transistor FET2 are connected to the drive circuit 11, and the drive circuit 11 is connected to the control circuit 5. The drive circuit 11 alternately turns on and off the field-effect transistors FET1 and FET2 at predetermined intervals according to the control signal of the control circuit 5 at the time of preheating, starting and lighting of the fluorescent lamp 3, respectively.
[0028]
The input voltage detection circuit 9 is provided between the rectifying and smoothing circuit 6 and the active circuit 7. That is, the input voltage detection circuit 9 includes a series circuit of the resistors R1 and R2 connected to the output side of the rectifying and smoothing circuit 6, and the voltage across the resistor R2 is input to the control circuit 5.
[0029]
The lamp lighting circuit 2 configured as described above outputs a high-frequency voltage to the output terminals 10a, 10a, 10b, and 10b by the switching operation of the field effect transistors FET1 and FET2 to light the fluorescent lamp 3.
[0030]
The fluorescent lamp 3 is connected to output terminals 10a, 10a, 10b, 10b via lamp sockets (not shown) at both ends of the filament electrodes 3a, 3b, and is energized by the lamp lighting circuit 2.
[0031]
The lamp connection circuit 4 includes resistors R3 to R5, a comparator CP1, a diode D2, and a reference power supply Vref1, and a series circuit of the resistors R3, R4, and R5 is provided on the input side of the inverter circuit 8. The middle point B of the resistors R3 and R4 is connected to the output terminal 10a connected to the cathode side of the diode D1. The output voltage of the active circuit 7 is applied to a series circuit of the resistors R3, R4, and R5, and the output voltage is divided by the resistors R3 to R5.
[0032]
The comparator CP1 has an inverting input terminal connected to the reference power supply Vref1, and a non-inverting input terminal connected to the middle point C of the resistors R4 and R5 via the diode D2. That is, in the comparator CP1, the reference voltage of the reference power supply Vref1 is input to the inverting input terminal, and the voltage across the resistor R5 is input to the non-inverting input terminal. The negative side of the reference power supply Vref1 is connected to the ground E and the source side of the field effect transistor FET2. The diode D2 is connected so that the cathode is on the middle point C side and the anode is the non-inverting input terminal of the comparator CP1. The output terminal of the comparator CP1 is connected to the control circuit 5.
[0033]
The voltage across the resistor R5 is higher than the reference voltage of the reference power supply Vref1 when the fluorescent lamp 3 is connected to the output terminals 10a,..., 10b of the lamp lighting circuit 2, and the fluorescent lamp 3 is connected to the output terminals 10a,. , 10b, the resistance values of the resistors R3 to R5 are set in advance so as to be lower than the reference voltage of the reference power supply Vref1. That is, when the fluorescent lamp 3 is connected to the output terminals 10a,..., 10b when the commercial AC power supply Vs is turned on and the inverter circuit 8 is driven, the resistor R5 becomes active together with the resistors R3 and R4. The output voltage of the circuit 7 (input voltage of the inverter circuit 8) is divided, and the voltage between both ends is higher than the reference voltage of the reference power supply Vref1. On the other hand, when the fluorescent lamp 3 is not connected to the output terminals 10a,..., 10b when the inverter circuit 8 is driving, the output from the middle point A is passed through the series circuit of the filament winding L1a and the diode D1. A current flows through the middle point B, and the voltage between the middle point B and the source of the field effect transistor FET2 is divided by the resistors R4 and R5, and the voltage across the resistor R5 becomes lower than the reference voltage of the reference power supply Vref1. Things.
[0034]
The comparator CP1 outputs a low signal from the output terminal when the voltage across the resistor R5 is higher than the reference voltage of the reference power supply Vref1, and outputs the low signal when the voltage across the resistor R5 is lower than the reference voltage of the reference power supply Vref1. Outputs a high signal from the output terminal. That is, the comparator CP1 detects the connection state between the lamp lighting circuit 2 and the fluorescent lamp 3, outputs a low signal to the control circuit 5 when the connection is made, and outputs a high signal to the control circuit 5 when the connection is not made.
[0035]
The control circuit 5 has a main control unit 12. The main control unit 12 includes a timer unit (timer function) 13, a counter unit (counter function) 14, a reset unit (reset function) 15, and a memory unit 16.
[0036]
The main control unit 12 includes a CPU, a RAM, and a ROM in which programs are stored, and performs various controls based on the programs. The main control unit 12 is connected to the input voltage detection circuit 9, receives the voltage across the resistor R2, and is connected to the output terminal of the comparator CP1 of the lamp connection detection circuit 4 to turn on the lamp. A low signal or a high signal indicating the connection state between the circuit 2 and the fluorescent lamp 3 is input. Further, it is connected to the drive circuit 11 of the inverter circuit 8, and is formed so as to transmit a control signal for driving the field effect transistors FET1 and FET2 at a predetermined switching frequency.
[0037]
The timer section 13 accumulates the lighting time of the fluorescent lamp 3 under the control of the main control section 12. That is, after the commercial AC power supply Vs is turned on, the main control unit 12 receives the voltage across the resistor R2 from the input voltage detection circuit 9, and outputs the lamp lighting circuit 2 and the fluorescent light from the comparator CP1 of the lamp connection detection circuit 4. When a low signal indicating the connection of the lamp 3 is input, the timer unit 13 measures the lighting time of the fluorescent lamp 3 and always stores the lighting time in the memory unit 16. Each time the commercial AC power supply Vs is turned on, the cumulative lighting time of the fluorescent lamp 3 is read from the memory unit 16 and the timer unit 13 counts the time from the read cumulative lighting time.
[0038]
Then, even when the voltage across the resistor R2 is input from the input voltage detection circuit 9, the main control unit 12 outputs a high signal indicating that the lamp lighting circuit 2 and the fluorescent lamp 3 are disconnected from the comparator CP1 of the lamp connection detection circuit 4. When the signal is input, the timer section 13 stops the time measurement. The main control unit 12, the timer unit 13, and the memory unit 16 constitute an accumulative timer for accumulatively counting the lighting time of the fluorescent lamp 3.
[0039]
The counter section 14 counts the number of times the fluorescent lamp 3 blinks under the control of the main control section 12. That is, when the voltage across the resistor R2 is input from the input voltage detection circuit 9 and the low signal is input from the comparator CP1 of the lamp connection detection circuit 4, the main control unit 12 The number of blinks is counted, and the number of blinks is always stored in the memory unit 16. Then, every time the commercial AC power supply Vs is turned on, the cumulative number of blinks of the fluorescent lamp 3 is read from the memory unit 16 and the counter unit 14 counts from the read cumulative number of blinks.
[0040]
When the high signal is input from the comparator CP1 of the lamp connection detection circuit 4, the main control unit 12 disables the counting by the counter unit 14. The main control unit 12, the counter unit 14, and the memory unit 16 constitute cumulative counting means for cumulatively counting the number of times the fluorescent lamp 3 blinks.
[0041]
The reset unit 15 resets the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 under the control of the main control unit 12. That is, when the cumulative lighting time of the fluorescent lamp 3 stored in the memory unit 16 is equal to or longer than the preset lighting life value, the main control unit 12 receives a high signal from the comparator CP1 of the lamp connection detection circuit 4. Then, the reset unit 15 resets the accumulated lighting time stored in the memory unit 16. Similarly, when a high signal is input from the comparator CP1 of the lamp connection detection circuit 4 when the cumulative number of flashes of the fluorescent lamp 3 stored in the memory unit 16 is equal to or longer than a preset flashing life value, the reset unit 15 resets the cumulative number of blinks stored in the memory unit 16. The main control unit 12 and the reset unit 15 constitute reset means for resetting the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3.
[0042]
The memory unit 16 stores the cumulative lighting time of the fluorescent lamp 3 measured by the timer unit 13 and the cumulative number of blinks of the fluorescent lamp 3 counted by the counter unit 14. In addition, a lighting life value indicating a usable cumulative lighting time of the fluorescent lamp 3 and a blinking life value indicating a usable cumulative number of blinking times of the fluorescent lamp 3 are stored in advance. The lighting lifetime value and the blinking lifetime value may be appropriately set according to the type of the fluorescent lamp 3 and the use environment. For example, the lighting lifetime value is 12000 hours, and the blinking lifetime value is 2000 times.
[0043]
The main control unit 12 sets a preset value when the cumulative lighting time of the fluorescent lamp 3 stored in the memory unit 16 exceeds the lighting life value or when the cumulative number of blinks of the fluorescent lamp 3 exceeds the blinking life value. A flashing control signal for flashing the fluorescent lamp 3 or a light / dark control signal for turning on / off the fluorescent lamp 3 is sent to the drive circuit 11 for a certain period of time every predetermined period, so that the fluorescent lamp 3 is turned on or off. Have been. Thus, the life of the fluorescent lamp 3 is notified, and replacement with a new fluorescent lamp is prompted. Further, a display lamp (not shown) may be turned on or blinked as a notification unit for notifying the life of the fluorescent lamp 3.
[0044]
Further, the main control unit 12 is configured to receive an external signal from the external switch 17. That is, the main control unit 12 outputs a small voltage, for example, 0.1 V between the contacts 17a and 17b of the external switch 17 via a resistor (not shown) provided inside. Then, when the external switch 17 is turned on and the contact points 17a and 17b are short-circuited, a current flowing through the resistor is detected, so that an external signal is input.
[0045]
Then, when the external switch 17 is turned on, the main control unit 12 causes the reset unit 15 to forcibly reset the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 stored in the memory unit 16. Is formed. That is, even if the cumulative lighting time of the fluorescent lamp 3 does not reach the lighting life value, or if the cumulative number of blinks of the fluorescent lamp 3 does not reach the blinking life value, or if the lamp connection detection circuit 4 turns on the lamp. Regardless of the detection of the connection state between the circuit 2 and the fluorescent lamp 3, when the external switch 17 is turned on, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are reset. The external switch 17 forms a reset unit together with the main control unit 12 and the reset unit 15.
[0046]
Next, the operation of the first embodiment of the present invention will be described.
[0047]
When the commercial AC power supply Vs is turned on in a state where the filament electrodes 3a, 3b of the fluorescent lamp 3 are connected to the output terminals 10a, ..., 10b of the lamp lighting circuit 2, an inverter circuit is connected to the output terminals 10a, ..., 10b. 8 is output, and the fluorescent lamp 3 is turned on. At this time, a low signal is input from the lamp connection detection circuit 4 to the main control unit 12 of the control circuit 5, and a voltage across the resistor R2 is input from the input voltage detection circuit 9.
[0048]
The main control unit 12 causes the timer unit 13 to accumulate the time as the lighting time of the fluorescent lamp 3 over the period in which the row signal and the voltage between both ends of the resistor R2 are input, and causes the memory unit 16 to store the period. The cumulative lighting time of the fluorescent lamp 3 is stored in the memory unit 16 along with the cumulative counting by the timer unit 13.
[0049]
Further, the main controller 12 determines that the fluorescent lamp 3 has flickered each time the row signal and the voltage across the resistor R2 are input, causes the counter 14 to perform cumulative counting, and causes the memory 16 to store it. The memory unit 16 stores the cumulative number of blinks of the fluorescent lamp 3 along with the cumulative count by the counter unit 14.
[0050]
Then, when the cumulative lighting time of the fluorescent lamp 3 exceeds the lighting life value stored in the memory unit 16 or the cumulative number of blinks of the fluorescent lamp 3 exceeds the blinking life value stored in the memory unit 16. When this happens, the main control unit 12 determines that the fluorescent lamp 3 has reached the end of its life, and blinks or brightly lights the fluorescent lamp 3 for a predetermined period of time every predetermined period. Thus, the life of the fluorescent lamp 3 is notified and recognized. Then, the fluorescent lamp 3 determined to have reached the end of its life is replaced with a new fluorescent lamp.
[0051]
When a high signal is input from the lamp connection detection circuit 4 after determining that the fluorescent lamp 3 has reached the end of its life, the main control unit 12 determines that the fluorescent lamp 3 whose life has been determined is to be replaced with a new fluorescent lamp. Then, the reset unit 15 deletes the accumulated lighting time and the accumulated number of blinks stored in the memory unit 16. Thus, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are reset.
[0052]
When a new fluorescent lamp 3 is connected to the output terminals 10a,..., 10b of the lamp lighting circuit 2 and a low signal is input from the lamp connection detection circuit 4, the timer unit 13 is connected to the new fluorescent lamp 3. The cumulative lighting time and the cumulative number of blinking times are counted by the counter unit 14, and the cumulative lighting time and the cumulative number of blinking times are stored in the memory unit 16.
[0053]
.., 10b of the lamp lighting circuit 2 and a high signal is input from the lamp connection detection circuit 4 even if the fluorescent lamp 3 is not connected to the output terminals 10a,. When the cumulative lighting time and the cumulative number of blinks are less than the lighting life value and the blinking life value, respectively, the cumulative lighting time and the cumulative number of blinks are not reset. That is, when a high signal is input from the lamp connection detection circuit 4 when it is not determined that the fluorescent lamp 3 has reached the end of its life, it is determined that maintenance work such as cleaning of the fluorescent lamp 3 is to be performed. When the fluorescent lamp 3 is reconnected to the output terminals 10a,..., 10b of the lamp lighting circuit 2 and the low signal is re-input from the lamp connection detecting circuit 4, the timer of the fluorescent lamp 3 is counted. 13 and the counter unit 14 continues counting the number of times of cumulative blinking.
[0054]
When the external switch 17 is turned on and an external signal is input, the main control unit 12 forcibly resets the reset unit 15 to the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 stored in the memory unit 16. Let it be erased. That is, when the fluorescent lamp 3 is replaced by a new fluorescent lamp before the main controller 12 determines that the fluorescent lamp 3 has reached the end of its life, the external switch 17 is turned on so that the new fluorescent lamp 3 can be replaced with a new fluorescent lamp. On the other hand, the cumulative lighting time is counted and the cumulative number of blinks is counted.
[0055]
As described above, the cumulative lighting time and the lighting life value are compared, and the cumulative number of blinks and the blinking life value are compared. Therefore, the fluorescent lamp 3 is connected to the output terminals 10a,. Only by disconnecting, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are automatically reset or continued. The operation of the external switch 17 forcibly resets the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3.
[0056]
The discharge lamp lighting device 1 only needs to have one of the accumulative time counting means and the accumulative counting means.
[0057]
Next, a second embodiment of the present invention will be described.
[0058]
FIG. 2 is a block diagram of a discharge lamp lighting device according to a second embodiment of the present invention. The same parts as those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0059]
The discharge lamp lighting device 18 shown in FIG. 2 is different from the discharge lamp lighting device 1 shown in FIG. 1 in that a limit switch 19 as lamp connection detecting means is provided in a lamp socket (not shown) instead of the lamp connection detecting circuit 4. The limit switch 19 is connected to the main controller 12 of the control circuit 5. When the fluorescent lamp 3 is mounted on the lamp socket and connected to the output terminals 10a,..., 10b of the lamp lighting circuit 2, the limit switch 19 is turned on, and the ON signal is input to the main control unit 12. Then, when the fluorescent lamp 3 is removed from the lamp socket, the limit switch 19 is turned off, and this off signal is input to the main controller 12.
[0060]
In the discharge lamp lighting device 18, a switch SW1 is provided between the commercial AC power supply Vs and a lamp lighting circuit 20 as lamp lighting means. The switch SW1 is, for example, a wall switch or a pull switch. Then, the power supply voltage at the previous stage of the switch SW1 is input to the power supply unit 21 of the lamp lighting circuit 20. The power supply unit 21 converts an AC voltage into a DC voltage, adjusts the voltage to a predetermined voltage value, and supplies driving power to the main control unit 12 and the like. That is, the main control unit 12 operates even when the switch SW1 is turned off.
[0061]
The discharge lamp lighting device 18 removes the fluorescent lamp 3 from the lamp socket when the cumulative lighting time or the cumulative number of blinks of the fluorescent lamp 3 has not reached the lighting life value or the blinking life value, respectively. When the OFF signal is input, the cumulative lighting time and the cumulative number of blinks are not reset. Then, when the fluorescent lamp 3 is reinstalled in the lamp socket and an ON signal is input from the limit switch 19, the counting of the cumulative lighting time of the fluorescent lamp 3 and the continuation of the cumulative number of blinks are performed.
[0062]
Then, after the cumulative lighting time or the cumulative number of blinks of the fluorescent lamp 3 reaches the lighting life value or the blinking life value, respectively, and the life of the fluorescent lamp 3 is notified, when the OFF signal is input from the limit switch 19, the main control is performed. The unit 12 causes the reset unit 15 to reset the cumulative lighting time and the cumulative number of blinks. When the new fluorescent lamp 3 is mounted on the lamp socket and an ON signal is input from the limit switch 19, the cumulative lighting time for the new fluorescent lamp 3 is counted and the cumulative number of blinks is counted.
[0063]
The discharge lamp lighting device 18 can perform maintenance work such as cleaning of the fluorescent lamp 3 and replacement of the lamp even when the switch SW1 is turned off and the fluorescent lamp 3 is turned off.
[0064]
Next, a third embodiment of the present invention will be described.
[0065]
FIG. 3 is an external view of a lighting fixture showing a third embodiment of the present invention. The same parts as those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0066]
The lighting fixture 22 shown in FIG. 3 is a directly attached lighting fixture installed on a building such as a ceiling, and a lighting fixture main body 23 is attached to the building. The lighting fixture body 23 is provided with a cover 24 having a reflection surface 24a, and a pair of lamp sockets 25, 25 provided at both ends thereof. The external switch 17 is provided on one side surface of the lighting fixture main body 23 so as to be exposed. In addition, the lighting fixture main body 23 has a lighting device 26 for a discharge lamp disposed inside a cover 24. The discharge lamp lighting device 26 is obtained by removing the fluorescent lamp 3 from the discharge lamp lighting device 1 shown in FIG. The fluorescent lamp 3 is mounted on the lamp sockets 25,25.
[0067]
When the cumulative lighting time or the cumulative number of blinks of the fluorescent lamp 3 reaches a preset lighting life value or a blinking life value, respectively, the fluorescent lamp 3 is blinked or brightly and dimly lit, and the life is notified. Then, when the fluorescent lamp 3 is removed from the lamp sockets 25, 25, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are automatically reset. When the new fluorescent lamp 3 is mounted in the lamp sockets 25 and 25, the discharge lamp lighting device 26 measures the cumulative lighting time for the new fluorescent lamp 3 and counts the cumulative number of blinks. The lighting time and the cumulative number of blinks are stored in the memory unit 16.
[0068]
Before the life of the fluorescent lamp 3 is notified, the fluorescent lamp 3 is removed from the lamp sockets 25, 25 in order to perform maintenance work such as cleaning of the fluorescent lamp 3 and the lighting fixture 22. At 26, the cumulative lighting time and the cumulative number of blinks for the fluorescent lamp 3 are not reset. When the detached fluorescent lamp 3 is re-attached to the lamp sockets 25, 25 after maintenance work such as cleaning, the discharge lamp lighting device 26 counts the cumulative lighting time for the fluorescent lamp 3 and counts the cumulative number of blinks. It is performed continuously.
[0069]
Before the life of the fluorescent lamp 3 is notified, it is necessary to replace the fluorescent lamp 3 with a new fluorescent lamp 3 due to the fact that the fluorescent lamp 3 is severely contaminated and the luminous flux is significantly reduced, or the fluorescent lamp 3 is turned on unstable. There is. In this case, even if the fluorescent lamp 3 is removed from the lamp sockets 25, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are not automatically reset in the discharge lamp lighting device 26, so the external switch 17 is turned on once. Let it. Thereby, in the discharge lamp lighting device 26, the cumulative lighting time and the cumulative number of blinks of the fluorescent lamp 3 are reset. When the new fluorescent lamp 3 is mounted in the lamp sockets 25, 25, the discharge lamp lighting device 26 measures the cumulative lighting time and counts the cumulative number of blinks for the replaced new fluorescent lamp 3. Will be performed.
[0070]
As described above, in the lighting fixture 22, the cumulative lighting time and the cumulative number of blinks are automatically reset or continued only by attaching and detaching the fluorescent lamp 3 to and from the lamp sockets 25, 25.
[0071]
Since a plurality of lighting fixtures 22 are usually provided for each lighting area, when maintenance work such as replacement or cleaning of the fluorescent lamps 3 is performed, turning off the commercial AC power supply Vs turns the lighting fixtures into dark areas. This is dangerous because the maintenance work is performed at the same time, and may cause discomfort to surrounding workers. Therefore, the attachment / detachment of the fluorescent lamp 3 to / from the lamp sockets 25, 25 is performed when the commercial AC power supply Vs is turned on.
[0072]
According to the first aspect of the invention, when the discharge lamp is replaced with a new discharge lamp when the cumulative lighting time of the discharge lamp becomes equal to or longer than a preset lighting life value, the discharge lamp is replaced with a new one. The cumulative lighting time can be automatically reset. Also, even if the lamp lighting means and the discharge lamp are disconnected when the cumulative lighting time is less than the lighting life value, the cumulative lighting time is not reset, and maintenance work such as cleaning has no time limit. After the maintenance work, the lamp lighting means and the discharge lamp can be reconnected, so that the counting of the cumulative lighting time can be continued.
[0073]
According to the second aspect of the present invention, when the discharge lamp is replaced with a new discharge lamp when the cumulative number of blinks of the discharge lamp becomes equal to or longer than a preset blink life value, the cumulative number of blinks of the discharge lamp is automatically set. Can be reset. In addition, when the cumulative number of blinks is less than the blinking life value, even if the lamp lighting means and the discharge lamp are disconnected, the cumulative number of blinks is not reset, and maintenance work such as cleaning has no time limit. After the maintenance work, the counting of the cumulative number of blinks can be continued by reconnecting the lamp lighting means and the discharge lamp.
[0074]
According to the invention of claim 3, even when the cumulative lighting time or the cumulative number of blinking times of the discharge lamp has not reached the lighting life value or the blinking life value, when replacing the discharge lamp with a new discharge lamp, By inputting an external signal to the reset means, the cumulative lighting time or the cumulative number of blinks can be forcibly reset.
[0075]
According to the fourth aspect of the present invention, it is possible to provide a lighting fixture in which the cumulative lighting time or the cumulative number of blinks is automatically reset or continued only by attaching / detaching the discharge lamp to / from the lamp socket.
[Brief description of the drawings]
FIG. 1 is a block diagram of a discharge lamp lighting device according to a first embodiment of the present invention.
FIG. 2 is a block diagram of a discharge lamp lighting device according to a second embodiment of the present invention.
FIG. 3 is an external view of a lighting device according to a third embodiment of the present invention.
[Explanation of symbols]
1, 18 discharge lamp lighting device, 2, 20 lamp lighting circuit as lamp lighting means, 3 fluorescent lamp as discharge lamp, 4 lamp connection detection circuit as lamp connection detection means, 12 cumulative accumulation means, A main control unit constituting the cumulative counting means and the resetting means; 13 a timer unit constituting the cumulative time counting means; 14 a counter unit constituting the cumulative counting means; 15 a resetting unit constituting the resetting means; 17 a resetting means; External switches to be configured, 19: Limit switch as lamp connection detecting means, 22: Lighting equipment, 23: Lighting equipment main body

Claims (4)

A discharge lamp;
Lamp lighting means for lighting the discharge lamp;
Lamp connection detecting means for detecting a connection state of the lamp lighting means and the discharge lamp;
Accumulative timing means for accumulatively counting the lighting time of the discharge lamp;
When the cumulative lighting time of the discharge lamp cumulatively counted by the cumulative timer is equal to or longer than the preset lighting life value, and when the lamp connection detecting means detects the disconnection of the lamp lighting means and the discharge lamp, the cumulative Reset means for resetting the cumulative lighting time of the discharge lamp in the timing means;
A discharge lamp lighting device, comprising: A discharge lamp;
Lamp lighting means for lighting the discharge lamp;
Lamp connection detecting means for detecting a connection state of the lamp lighting means and the discharge lamp;
Accumulative counting means for accumulatively counting the number of times the discharge lamp blinks;
When the cumulative number of blinks of the discharge lamp counted by the cumulative counting means is equal to or longer than a preset blinking life value, and the lamp connection detecting means detects disconnection of the lamp lighting means and the discharge lamp, Reset means for resetting the cumulative number of blinks of the discharge lamp in the counting means;
A discharge lamp lighting device, comprising: 3. The reset unit according to claim 1, wherein the reset unit is further configured to input an external signal, and resets the cumulative lighting time or the cumulative number of blinks of the discharge lamp when the external signal is input. Discharge lamp lighting device. A discharge lamp lighting device according to any one of claims 1 to 3, and
A lighting fixture body in which the discharge lamp lighting device is provided;
A lighting fixture comprising:

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